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Otoferlin Couples to Clathrin-Mediated Endocytosis in Mature Cochlear Inner Hair Cells.
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- Journal of Neuroscience, 2013, v. 33, n. 22, p. 9508, doi. 10.1523/JNEUROSCI.5689-12.2013
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- Article
The Resting Transducer Current Drives Spontaneous Activity in Prehearing Mammalian Cochlear Inner Hair Cells.
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- Journal of Neuroscience, 2012, v. 32, n. 31, p. 10479, doi. 10.1523/JNEUROSCI.0803-12.2012
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- Article
Lack of Brain-Derived Neurotrophic Factor Hampers Inner Hair Cell Synapse Physiology, But Protects against Noise-Induced Hearing Loss.
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- Journal of Neuroscience, 2012, v. 32, n. 25, p. 8545, doi. 10.1523/JNEUROSCI.1247-12.2012
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- Article
Tonotopic Variation in the Calcium Dependence of Neurotransmitter Release and Vesicle Pool Replenishment at Mammalian Auditory Ribbon Synapses.
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- Journal of Neuroscience, 2008, v. 28, n. 30, p. 7670, doi. 10.1523/JNEUROSCI.0785-08.2008
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- Article
Gradients of expression of calcium and potassium currents in frog crista ampullaris.
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- Pflügers Archiv: European Journal of Physiology, 2001, v. 442, n. 6, p. 814, doi. 10.1007/s004240100613
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- Article
Absence of plastin 1 causes abnormal maintenance of hair cell stereocilia and a moderate form of hearing loss in mice.
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- Human Molecular Genetics, 2015, v. 24, n. 1, p. 37, doi. 10.1093/hmg/ddu417
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- Article
Otoferlin interacts with myosin VI: implications for maintenance of the basolateral synaptic structure of the inner hair cell.
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- Human Molecular Genetics, 2009, v. 18, n. 15, p. 2779, doi. 10.1093/hmg/ddp213
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- Article
Grxcr1 regulates hair bundle morphogenesis and is required for normal mechanoelectrical transduction in mouse cochlear hair cells.
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- PLoS ONE, 2022, v. 17, n. 3, p. 1, doi. 10.1371/journal.pone.0261530
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- Article
Signal transmission in mature mammalian vestibular hair cells.
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- Frontiers in Cellular Neuroscience, 2022, v. 16, p. 01, doi. 10.3389/fncel.2022.806913
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- Article
Restoration of auditory evoked responses by human ES-cell-derived otic progenitors.
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- Nature, 2012, v. 490, n. 7419, p. 278, doi. 10.1038/nature11415
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- Article
Wbp2 is required for normal glutamatergic synapses in the cochlea and is crucial for hearing.
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- EMBO Molecular Medicine, 2016, v. 8, n. 3, p. 191, doi. 10.15252/emmm.201505523
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- Article
Integration of Tmc1/2 into the mechanotransduction complex in zebrafish hair cells is regulated by Transmembrane O-methyltransferase (Tomt).
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- eLife, 2017, p. 1, doi. 10.7554/eLife.28474
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- Article
Mechanotransduction is required for establishing and maintaining mature inner hair cells and regulating efferent innervation.
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- Nature Communications, 2018, v. 9, n. 1, p. 1, doi. 10.1038/s41467-018-06307-w
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- Article
Enlargement of Ribbons in Zebrafish Hair Cells Increases Calcium Currents But Disrupts Afferent Spontaneous Activity and Timing of Stimulus Onset.
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- Journal of Neuroscience, 2017, v. 37, n. 26, p. 6299, doi. 10.1523/JNEUROSCI.2878-16.2017
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- Article
The Coupling between Ca<sup>2+</sup> Channels and the Exocytotic Ca<sup>2+</sup> Sensor at Hair Cell Ribbon Synapses Varies Tonotopically along the Mature Cochlea.
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- Journal of Neuroscience, 2017, v. 37, n. 9, p. 2471, doi. 10.1523/JNEUROSCI.2867-16.2017
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Connexin-Mediated Signaling in Nonsensory Cells Is Crucial for the Development of Sensory Inner Hair Cells in the Mouse Cochlea.
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- Journal of Neuroscience, 2017, v. 37, n. 2, p. 258, doi. 10.1523/JNEUROSCI.2251-16.2017
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Tmc1 Point Mutation Affects Ca<sup>2+</sup> Sensitivity and Block by Dihydrostreptomycin of the Mechanoelectrical Transducer Current of Mouse Outer Hair Cells.
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- Journal of Neuroscience, 2016, v. 36, n. 2, p. 336, doi. 10.1523/JNEUROSCI.2439-15.2016
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Absence of Neuroplastin-65 Affects Synaptogenesis in Mouse Inner Hair Cells and Causes Profound Hearing Loss.
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- Journal of Neuroscience, 2016, v. 36, n. 1, p. 222, doi. 10.1523/JNEUROSCI.1808-15.2016
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- Article
Transduction without Tip Links in Cochlear Hair Cells Is Mediated by Ion Channels with Permeation Properties Distinct from Those of the Mechano-Electrical Transducer Channel.
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- Journal of Neuroscience, 2014, v. 34, n. 16, p. 5505, doi. 10.1523/JNEUROSCI.4086-13.2014
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- Article
Elementary properties of Ca<sub>V</sub>1.3 Ca<sup>2+</sup> channels expressed in mouse cochlear inner hair cells.
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- Journal of Physiology, 2010, v. 588, n. 1, p. 187, doi. 10.1113/jphysiol.2009.181917
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Functional maturation of the exocytotic machinery at gerbil hair cell ribbon synapses.
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- Journal of Physiology, 2009, v. 587, n. 8, p. 1715, doi. 10.1113/jphysiol.2009.168542
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TRPML3 mutations cause impaired mechano-electrical transduction and depolarization by an inward-rectifier cation current in auditory hair cells of varitint-waddler mice.
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- Journal of Physiology, 2008, v. 586, n. 22, p. 5403, doi. 10.1113/jphysiol.2008.156992
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Biophysical properties of Ca<sub>V</sub>1.3 calcium channels in gerbil inner hair cells.
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- Journal of Physiology, 2008, v. 586, n. 4, p. 1029, doi. 10.1113/jphysiol.2007.145219
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- Article
Genetic deletion of SK2 channels in mouse inner hair cells prevents the developmental linearization in the Ca<sup>2+</sup> dependence of exocytosis.
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- Journal of Physiology, 2007, v. 583, n. 2, p. 631, doi. 10.1113/jphysiol.2007.136630
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Tmc1 is necessary for normal functional maturation and survival of inner and outer hair cells in the mouse cochlea.
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- Journal of Physiology, 2006, v. 574, n. 3, p. 677, doi. 10.1113/jphysiol.2005.095661
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- Article
The aminoglycoside antibiotic dihydrostreptomycin rapidly enters mouse outer hair cells through the mechano -electrical transducer channels.
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- Journal of Physiology, 2005, v. 567, n. 2, p. 505, doi. 10.1113/jphysiol.2005.085951
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Increase in efficiency and reduction in Ca<sup>2+</sup> dependence of exocytosis during development of mouse inner hair cells.
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- Journal of Physiology, 2005, v. 563, n. 1, p. 177, doi. 10.1113/jphysiol.2004.074740
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A transiently expressed SK current sutstains and modulates action potential activity in immature mouse inner hair cells.
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- Journal of Physiology, 2004, v. 560, n. 3, p. 691, doi. 10.1113/jphysiol.2004.072868
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- Article
Effects of intracellular stores and extracellular Ca<sup>2+</sup> on Ca<sup>2+</sup>-activated K<sup>+</sup> currents in mature mouse inner hair cells.
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- Journal of Physiology, 2004, v. 557, n. 2, p. 613, doi. 10.1113/jphysiol.2003.060137
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Sodium and calcium currents shape action potentials in immature mouse inner hair cells.
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- Journal of Physiology, 2003, v. 552, n. 3, p. 743, doi. 10.1113/jphysiol.2003.043612
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Developmental changes in the expression of potassium currents of embryonic, neonatal and mature mouse inner hair cells.
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- Journal of Physiology, 2003, v. 548, n. 2, p. 383, doi. 10.1111/j.1469-7793.2003.00383.x
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Generation of Otic Lineages from Integration-Free Human-Induced Pluripotent Stem Cells Reprogrammed by mRNAs.
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- Stem Cells International, 2020, p. 1, doi. 10.1155/2020/3692937
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Fine Tuning of Ca<sub>V</sub>1.3 Ca<sup>2+</sup> Channel Properties in Adult Inner Hair Cells Positioned in the Most Sensitive Region of the Gerbil Cochlea.
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- PLoS ONE, 2014, v. 9, n. 11, p. 1, doi. 10.1371/journal.pone.0113750
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The Actin-Binding Proteins Eps8 and Gelsolin Have Complementary Roles in Regulating the Growth and Stability of Mechanosensory Hair Bundles of Mammalian Cochlear Outer Hair Cells.
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- PLoS ONE, 2014, v. 9, n. 1, p. 1, doi. 10.1371/journal.pone.0087331
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Development and Function of the Voltage-Gated Sodium Current in Immature Mammalian Cochlear Inner Hair Cells.
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- PLoS ONE, 2012, v. 7, n. 9, p. 1, doi. 10.1371/journal.pone.0045732
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Auditory Function in the Tc1 Mouse Model of Down Syndrome Suggests a Limited Region of Human Chromosome 21 Involved in Otitis Media.
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- PLoS ONE, 2012, v. 7, n. 2, p. 1, doi. 10.1371/journal.pone.0031433
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Mutations in Protocadherin 15 and Cadherin 23 Affect Tip Links and Mechanotransduction in Mammalian Sensory Hair Cells.
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- PLoS ONE, 2011, v. 6, n. 4, p. 1, doi. 10.1371/journal.pone.0019183
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- Article
Current Response in Ca<sub> V </sub>1.3<sup>–/–</sup> Mouse Vestibular and Cochlear Hair Cells.
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- Frontiers in Neuroscience, 2021, v. 15, p. 1, doi. 10.3389/fnins.2021.749483
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- Article
Human Fetal Auditory Stem Cells Can Be Expanded In Vitro and Differentiate Into Functional Auditory Neurons and Hair Cell-Like Cells.
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- Stem Cells, 2009, v. 27, n. 5, p. 1196, doi. 10.1002/stem.62
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Beethoven, a mouse model for dominant, progressive hearing loss DFNA36.
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- Nature Genetics, 2002, v. 30, n. 3, p. 257, doi. 10.1038/ng848
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- Article
A reduction in Ptprq associated with specific features of the deafness phenotype of the miR-96 mutant mouse diminuendo.
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- European Journal of Neuroscience, 2014, v. 39, n. 5, p. 744, doi. 10.1111/ejn.12484
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Neuroplastin genetically interacts with Cadherin 23 and the encoded isoform Np55 is sufficient for cochlear hair cell function and hearing.
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- PLoS Genetics, 2022, v. 18, n. 1, p. 1, doi. 10.1371/journal.pgen.1009937
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- Article
Functional assembly of mammalian cochlear hair cells.
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- Experimental Physiology, 2012, v. 97, n. 4, p. 438, doi. 10.1113/expphysiol.2011.059303
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- Article
Age‐related changes in P2Y receptor signalling in mouse cochlear supporting cells.
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- Journal of Physiology, 2023, v. 601, n. 19, p. 4375, doi. 10.1113/JP284980
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Oncomodulin regulates spontaneous calcium signalling and maturation of afferent innervation in cochlear outer hair cells.
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- Journal of Physiology, 2023, v. 601, n. 19, p. 4291, doi. 10.1113/JP284690
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- Article
Functional development and regeneration of hair cells in the zebrafish lateral line.
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- Journal of Physiology, 2021, v. 599, n. 16, p. 3913, doi. 10.1113/JP281522
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Sensory adaptation at ribbon synapses in the zebrafish lateral line.
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- Journal of Physiology, 2021, v. 599, n. 15, p. 3677, doi. 10.1113/JP281646
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MET currents and otoacoustic emissions from mice with a detached tectorial membrane indicate the extracellular matrix regulates Ca<sup>2+</sup> near stereocilia.
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- Journal of Physiology, 2021, v. 599, n. 7, p. 2015, doi. 10.1113/JP280905
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Loss of Baiap2l2 destabilizes the transducing stereocilia of cochlear hair cells and leads to deafness.
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- Journal of Physiology, 2021, v. 599, n. 4, p. 1173, doi. 10.1113/JP280670
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Biophysical and morphological changes in inner hair cells and their efferent innervation in the ageing mouse cochlea.
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- Journal of Physiology, 2021, v. 599, n. 1, p. 269, doi. 10.1113/JP280256
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- Article